/*
 * Copyright (c) 2011 The Boeing Company
 *
 * SPDX-License-Identifier: GPL-2.0-only
 *
 * Author: kwong yin <kwong-sang.yin@boeing.com>
 */
#include "lr-wpan-mac-header.h"

#include "ns3/address-utils.h"

namespace ns3
{
namespace lrwpan
{

NS_OBJECT_ENSURE_REGISTERED(LrWpanMacHeader);

// TODO: Test Compressed PAN Id, Security Enabled, different size Key

LrWpanMacHeader::LrWpanMacHeader()
{
    SetType(LRWPAN_MAC_DATA); // Assume Data frame
    SetSecDisable();          // Assume there is No Aux Sec but
    SetNoFrmPend();           // No Frame Pending
    SetNoAckReq();            // No Ack Frame will be expected from recipient
    SetNoPanIdComp();         // No PAN Id Compression since no addresses
    SetFrmCtrlRes(0);         // Initialize the 3 reserved bits to 0
    SetDstAddrMode(NOADDR);   // Assume there will be no src and dst address
    SetSrcAddrMode(NOADDR);
    SetFrameVer(1); // Indicates an IEEE 802.15.4 frame
}

LrWpanMacHeader::LrWpanMacHeader(LrWpanMacType wpanMacType, uint8_t seqNum)
{
    SetType(wpanMacType);
    SetSeqNum(seqNum);
    SetSecDisable();        // Assume there is No Aux Sec but
    SetNoFrmPend();         // No Frame Pending
    SetNoAckReq();          // No Ack Frame will be expected from recipient
    SetNoPanIdComp();       // No PAN Id Compression since no addresses
    SetFrmCtrlRes(0);       // Initialize the 3 reserved bits to 0
    SetDstAddrMode(NOADDR); // Assume there will be no src and dst address
    SetSrcAddrMode(NOADDR);
    SetFrameVer(1); // Indicates an IEEE 802.15.4 frame
}

LrWpanMacHeader::~LrWpanMacHeader()
{
}

LrWpanMacHeader::LrWpanMacType
LrWpanMacHeader::GetType() const
{
    switch (m_fctrlFrmType)
    {
    case 0:
        return LRWPAN_MAC_BEACON;
    case 1:
        return LRWPAN_MAC_DATA;
    case 2:
        return LRWPAN_MAC_ACKNOWLEDGMENT;
    case 3:
        return LRWPAN_MAC_COMMAND;
    default:
        return LRWPAN_MAC_RESERVED;
    }
}

uint16_t
LrWpanMacHeader::GetFrameControl() const
{
    uint16_t val = 0;

    val = m_fctrlFrmType & (0x07);                    // Bit 0-2
    val |= (m_fctrlSecU << 3) & (0x01 << 3);          // Bit 3
    val |= (m_fctrlFrmPending << 4) & (0x01 << 4);    // Bit 4
    val |= (m_fctrlAckReq << 5) & (0x01 << 5);        // Bit 5
    val |= (m_fctrlPanIdComp << 6) & (0x01 << 6);     // Bit 6
    val |= (m_fctrlReserved << 7) & (0x07 << 7);      // Bit 7-9
    val |= (m_fctrlDstAddrMode << 10) & (0x03 << 10); // Bit 10-11
    val |= (m_fctrlFrmVer << 12) & (0x03 << 12);      // Bit 12-13
    val |= (m_fctrlSrcAddrMode << 14) & (0x03 << 14); // Bit 14-15
    return val;
}

bool
LrWpanMacHeader::IsSecEnable() const
{
    return (m_fctrlSecU == 1);
}

bool
LrWpanMacHeader::IsFrmPend() const
{
    return (m_fctrlFrmPending == 1);
}

bool
LrWpanMacHeader::IsAckReq() const
{
    return (m_fctrlAckReq == 1);
}

bool
LrWpanMacHeader::IsPanIdComp() const
{
    return (m_fctrlPanIdComp == 1);
}

uint8_t
LrWpanMacHeader::GetFrmCtrlRes() const
{
    return m_fctrlReserved;
}

uint8_t
LrWpanMacHeader::GetDstAddrMode() const
{
    return m_fctrlDstAddrMode;
}

uint8_t
LrWpanMacHeader::GetFrameVer() const
{
    return m_fctrlFrmVer;
}

uint8_t
LrWpanMacHeader::GetSrcAddrMode() const
{
    return m_fctrlSrcAddrMode;
}

uint8_t
LrWpanMacHeader::GetSeqNum() const
{
    return m_SeqNum;
}

uint16_t
LrWpanMacHeader::GetDstPanId() const
{
    return m_addrDstPanId;
}

Mac16Address
LrWpanMacHeader::GetShortDstAddr() const
{
    return m_addrShortDstAddr;
}

Mac64Address
LrWpanMacHeader::GetExtDstAddr() const
{
    return m_addrExtDstAddr;
}

uint16_t
LrWpanMacHeader::GetSrcPanId() const
{
    return m_addrSrcPanId;
}

Mac16Address
LrWpanMacHeader::GetShortSrcAddr() const
{
    return m_addrShortSrcAddr;
}

Mac64Address
LrWpanMacHeader::GetExtSrcAddr() const
{
    return m_addrExtSrcAddr;
}

uint8_t
LrWpanMacHeader::GetSecControl() const
{
    uint8_t val = 0;

    val = m_secctrlSecLevel & (0x7);               // Bit 0-2
    val |= (m_secctrlKeyIdMode << 3) & (0x3 << 3); // Bit 3-4
    val |= (m_secctrlReserved << 5) & (0x7 << 5);  // Bit 5-7

    return val;
}

uint32_t
LrWpanMacHeader::GetFrmCounter() const
{
    return m_auxFrmCntr;
}

uint8_t
LrWpanMacHeader::GetSecLevel() const
{
    return m_secctrlSecLevel;
}

uint8_t
LrWpanMacHeader::GetKeyIdMode() const
{
    return m_secctrlKeyIdMode;
}

uint8_t
LrWpanMacHeader::GetSecCtrlReserved() const
{
    return m_secctrlReserved;
}

uint32_t
LrWpanMacHeader::GetKeyIdSrc32() const
{
    return m_auxKeyIdKeySrc32;
}

uint64_t
LrWpanMacHeader::GetKeyIdSrc64() const
{
    return m_auxKeyIdKeySrc64;
}

uint8_t
LrWpanMacHeader::GetKeyIdIndex() const
{
    return m_auxKeyIdKeyIndex;
}

bool
LrWpanMacHeader::IsBeacon() const
{
    return (m_fctrlFrmType == LRWPAN_MAC_BEACON);
}

bool
LrWpanMacHeader::IsData() const
{
    return (m_fctrlFrmType == LRWPAN_MAC_DATA);
}

bool
LrWpanMacHeader::IsAcknowledgment() const
{
    return (m_fctrlFrmType == LRWPAN_MAC_ACKNOWLEDGMENT);
}

bool
LrWpanMacHeader::IsCommand() const
{
    return (m_fctrlFrmType == LRWPAN_MAC_COMMAND);
}

void
LrWpanMacHeader::SetType(LrWpanMacType wpanMacType)
{
    m_fctrlFrmType = wpanMacType;
}

void
LrWpanMacHeader::SetFrameControl(uint16_t frameControl)
{
    m_fctrlFrmType = (frameControl) & (0x07);           // Bit 0-2
    m_fctrlSecU = (frameControl >> 3) & (0x01);         // Bit 3
    m_fctrlFrmPending = (frameControl >> 4) & (0x01);   // Bit 4
    m_fctrlAckReq = (frameControl >> 5) & (0x01);       // Bit 5
    m_fctrlPanIdComp = (frameControl >> 6) & (0x01);    // Bit 6
    m_fctrlReserved = (frameControl >> 7) & (0x07);     // Bit 7-9
    m_fctrlDstAddrMode = (frameControl >> 10) & (0x03); // Bit 10-11
    m_fctrlFrmVer = (frameControl >> 12) & (0x03);      // Bit 12-13
    m_fctrlSrcAddrMode = (frameControl >> 14) & (0x03); // Bit 14-15
}

void
LrWpanMacHeader::SetSecEnable()
{
    m_fctrlSecU = 1;
}

void
LrWpanMacHeader::SetSecDisable()
{
    m_fctrlSecU = 0;
}

void
LrWpanMacHeader::SetFrmPend()
{
    m_fctrlFrmPending = 1;
}

void
LrWpanMacHeader::SetNoFrmPend()
{
    m_fctrlFrmPending = 0;
}

void
LrWpanMacHeader::SetAckReq()
{
    m_fctrlAckReq = 1;
}

void
LrWpanMacHeader::SetNoAckReq()
{
    m_fctrlAckReq = 0;
}

void
LrWpanMacHeader::SetPanIdComp()
{
    m_fctrlPanIdComp = 1;
}

void
LrWpanMacHeader::SetNoPanIdComp()
{
    m_fctrlPanIdComp = 0;
}

void
LrWpanMacHeader::SetFrmCtrlRes(uint8_t res)
{
    m_fctrlReserved = res;
}

void
LrWpanMacHeader::SetDstAddrMode(uint8_t addrMode)
{
    m_fctrlDstAddrMode = addrMode;
}

void
LrWpanMacHeader::SetFrameVer(uint8_t ver)
{
    m_fctrlFrmVer = ver;
}

void
LrWpanMacHeader::SetSrcAddrMode(uint8_t addrMode)
{
    m_fctrlSrcAddrMode = addrMode;
}

void
LrWpanMacHeader::SetSeqNum(uint8_t seqNum)
{
    m_SeqNum = seqNum;
}

void
LrWpanMacHeader::SetSrcAddrFields(uint16_t panId, Mac16Address addr)
{
    m_addrSrcPanId = panId;
    m_addrShortSrcAddr = addr;
}

void
LrWpanMacHeader::SetSrcAddrFields(uint16_t panId, Mac64Address addr)
{
    m_addrSrcPanId = panId;
    m_addrExtSrcAddr = addr;
}

void
LrWpanMacHeader::SetDstAddrFields(uint16_t panId, Mac16Address addr)
{
    m_addrDstPanId = panId;
    m_addrShortDstAddr = addr;
}

void
LrWpanMacHeader::SetDstAddrFields(uint16_t panId, Mac64Address addr)
{
    m_addrDstPanId = panId;
    m_addrExtDstAddr = addr;
}

void
LrWpanMacHeader::SetSecControl(uint8_t secControl)
{
    m_secctrlSecLevel = (secControl) & (0x07);       // Bit 0-2
    m_secctrlKeyIdMode = (secControl >> 3) & (0x03); // Bit 3-4
    m_secctrlReserved = (secControl >> 5) & (0x07);  // Bit 5-7
}

void
LrWpanMacHeader::SetFrmCounter(uint32_t frmCntr)
{
    m_auxFrmCntr = frmCntr;
}

void
LrWpanMacHeader::SetSecLevel(uint8_t secLevel)
{
    m_secctrlSecLevel = secLevel;
}

void
LrWpanMacHeader::SetKeyIdMode(uint8_t keyIdMode)
{
    m_secctrlKeyIdMode = keyIdMode;
}

void
LrWpanMacHeader::SetSecCtrlReserved(uint8_t res)
{
    m_secctrlReserved = res;
}

void
LrWpanMacHeader::SetKeyId(uint8_t keyIndex)
{
    m_auxKeyIdKeyIndex = keyIndex;
}

void
LrWpanMacHeader::SetKeyId(uint32_t keySrc, uint8_t keyIndex)
{
    m_auxKeyIdKeyIndex = keyIndex;
    m_auxKeyIdKeySrc32 = keySrc;
}

void
LrWpanMacHeader::SetKeyId(uint64_t keySrc, uint8_t keyIndex)
{
    m_auxKeyIdKeyIndex = keyIndex;
    m_auxKeyIdKeySrc64 = keySrc;
}

TypeId
LrWpanMacHeader::GetTypeId()
{
    static TypeId tid = TypeId("ns3::lrwpan::LrWpanMacHeader")
                            .AddDeprecatedName("ns3::LrWpanMacHeader")
                            .SetParent<Header>()
                            .SetGroupName("LrWpan")
                            .AddConstructor<LrWpanMacHeader>();
    return tid;
}

TypeId
LrWpanMacHeader::GetInstanceTypeId() const
{
    return GetTypeId();
}

void
LrWpanMacHeader::Print(std::ostream& os) const
{
    os << "  Frame Type = " << (uint32_t)m_fctrlFrmType
       << ", Sec Enable = " << (uint32_t)m_fctrlSecU
       << ", Frame Pending = " << (uint32_t)m_fctrlFrmPending
       << ", Ack Request = " << (uint32_t)m_fctrlAckReq
       << ", PAN ID Compress = " << (uint32_t)m_fctrlPanIdComp
       << ", Frame Vers = " << (uint32_t)m_fctrlFrmVer
       << ", Dst Addrs Mode = " << (uint32_t)m_fctrlDstAddrMode
       << ", Src Addr Mode = " << (uint32_t)m_fctrlSrcAddrMode;

    os << ", Sequence Num = " << static_cast<uint16_t>(m_SeqNum);

    switch (m_fctrlDstAddrMode)
    {
    case NOADDR:
        break;
    case SHORTADDR:
        os << ", Dst Addr Pan ID = " << static_cast<uint16_t>(m_addrDstPanId)
           << ", m_addrShortDstAddr = " << m_addrShortDstAddr;
        break;
    case EXTADDR:
        os << ", Dst Addr Pan ID = " << static_cast<uint16_t>(m_addrDstPanId)
           << ", m_addrExtDstAddr = " << m_addrExtDstAddr;
        break;
    }

    switch (m_fctrlSrcAddrMode)
    {
    case NOADDR:
        break;
    case SHORTADDR:
        os << ", Src Addr Pan ID = " << static_cast<uint16_t>(m_addrSrcPanId)
           << ", m_addrShortSrcAddr = " << m_addrShortSrcAddr;
        break;
    case EXTADDR:
        os << ", Src Addr Pan ID = " << static_cast<uint32_t>(m_addrSrcPanId)
           << ", m_addrExtSrcAddr = " << m_addrExtDstAddr;
        break;
    }

    if (IsSecEnable())
    {
        os << "  Security Level = " << static_cast<uint32_t>(m_secctrlSecLevel)
           << ", Key Id Mode = " << static_cast<uint32_t>(m_secctrlKeyIdMode)
           << ", Frame Counter = " << static_cast<uint32_t>(m_auxFrmCntr);

        switch (m_secctrlKeyIdMode)
        {
        case IMPLICIT:
            break;
        case NOKEYSOURCE:
            os << ", Key Id - Key Index = " << static_cast<uint32_t>(m_auxKeyIdKeyIndex);
            break;
        case SHORTKEYSOURCE:
            os << ", Key Id - Key Source 32 =" << static_cast<uint32_t>(m_auxKeyIdKeySrc32)
               << ", Key Id - Key Index = " << static_cast<uint32_t>(m_auxKeyIdKeyIndex);
            break;
        case LONGKEYSOURCE:
            os << ", Key Id - Key Source 64 =" << static_cast<uint64_t>(m_auxKeyIdKeySrc64)
               << ", Key Id - Key Index = " << static_cast<uint32_t>(m_auxKeyIdKeyIndex);
            break;
        }
    }
}

uint32_t
LrWpanMacHeader::GetSerializedSize() const
{
    /*
     * Each mac header will have
     * Frame Control      : 2 octet
     * Sequence Number    : 1 Octet
     * Dst PAN Id         : 0/2 Octet
     * Dst Address        : 0/2/8 octet
     * Src PAN Id         : 0/2 octet
     * Src Address        : 0/2/8 octet
     * Aux Sec Header     : 0/5/6/10/14 octet
     */

    uint32_t size = 3;

    switch (m_fctrlDstAddrMode)
    {
    case NOADDR:
        break;
    case SHORTADDR:
        size += 4;
        break;
    case EXTADDR:
        size += 10;
        break;
    }

    switch (m_fctrlSrcAddrMode)
    {
    case NOADDR:
        break;
    case SHORTADDR:
        // check if PAN Id compression is enabled
        if (!IsPanIdComp())
        {
            size += 4;
        }
        else
        {
            size += 2;
        }
        break;
    case EXTADDR:
        // check if PAN Id compression is enabled
        if (!IsPanIdComp())
        {
            size += 10;
        }
        else
        {
            size += 8;
        }
        break;
    }

    // check if security is enabled
    if (IsSecEnable())
    {
        size += 5;
        switch (m_secctrlKeyIdMode)
        {
        case IMPLICIT:
            break;
        case NOKEYSOURCE:
            size += 1;
            break;
        case SHORTKEYSOURCE:
            size += 5;
            break;
        case LONGKEYSOURCE:
            size += 9;
            break;
        }
    }
    return size;
}

void
LrWpanMacHeader::Serialize(Buffer::Iterator start) const
{
    Buffer::Iterator i = start;
    uint16_t frameControl = GetFrameControl();

    i.WriteHtolsbU16(frameControl);
    i.WriteU8(GetSeqNum());

    switch (m_fctrlDstAddrMode)
    {
    case NOADDR:
        break;
    case SHORTADDR:
        i.WriteHtolsbU16(GetDstPanId());
        WriteTo(i, m_addrShortDstAddr);
        break;
    case EXTADDR:
        i.WriteHtolsbU16(GetDstPanId());
        WriteTo(i, m_addrExtDstAddr);
        break;
    }

    switch (m_fctrlSrcAddrMode)
    {
    case NOADDR:
        break;
    case SHORTADDR:
        if (!IsPanIdComp())
        {
            i.WriteHtolsbU16(GetSrcPanId());
        }
        WriteTo(i, m_addrShortSrcAddr);
        break;
    case EXTADDR:
        if (!IsPanIdComp())
        {
            i.WriteHtolsbU16(GetSrcPanId());
        }
        WriteTo(i, m_addrExtSrcAddr);
        break;
    }

    if (IsSecEnable())
    {
        i.WriteU8(GetSecControl());
        i.WriteHtolsbU32(GetFrmCounter());

        switch (m_secctrlKeyIdMode)
        {
        case IMPLICIT:
            break;
        case NOKEYSOURCE:
            i.WriteU8(GetKeyIdIndex());
            break;
        case SHORTKEYSOURCE:
            i.WriteHtolsbU32(GetKeyIdSrc32());
            i.WriteU8(GetKeyIdIndex());
            break;
        case LONGKEYSOURCE:
            i.WriteHtolsbU64(GetKeyIdSrc64());
            i.WriteU8(GetKeyIdIndex());
            break;
        }
    }
}

uint32_t
LrWpanMacHeader::Deserialize(Buffer::Iterator start)
{
    Buffer::Iterator i = start;
    uint16_t frameControl = i.ReadLsbtohU16();
    SetFrameControl(frameControl);

    SetSeqNum(i.ReadU8());
    switch (m_fctrlDstAddrMode)
    {
    case NOADDR:
        break;
    case SHORTADDR:
        m_addrDstPanId = i.ReadLsbtohU16();
        ReadFrom(i, m_addrShortDstAddr);
        break;
    case EXTADDR:
        m_addrDstPanId = i.ReadLsbtohU16();
        ReadFrom(i, m_addrExtDstAddr);
        break;
    }

    switch (m_fctrlSrcAddrMode)
    {
    case NOADDR:
        break;
    case SHORTADDR:
        if (!IsPanIdComp())
        {
            m_addrSrcPanId = i.ReadLsbtohU16();
        }
        else
        {
            if (m_fctrlDstAddrMode > 0)
            {
                m_addrSrcPanId = m_addrDstPanId;
            }
        }
        ReadFrom(i, m_addrShortSrcAddr);
        break;
    case EXTADDR:
        if (!IsPanIdComp())
        {
            m_addrSrcPanId = i.ReadLsbtohU16();
        }
        else
        {
            if (m_fctrlDstAddrMode > 0)
            {
                m_addrSrcPanId = m_addrDstPanId;
            }
        }
        ReadFrom(i, m_addrExtSrcAddr);
        break;
    }

    if (IsSecEnable())
    {
        SetSecControl(i.ReadU8());
        SetFrmCounter(i.ReadLsbtohU32());

        switch (m_secctrlKeyIdMode)
        {
        case IMPLICIT:
            break;
        case NOKEYSOURCE:
            SetKeyId(i.ReadU8());
            break;
        case SHORTKEYSOURCE:
            SetKeyId(i.ReadLsbtohU32(), i.ReadU8());
            break;
        case LONGKEYSOURCE:
            SetKeyId(i.ReadLsbtohU64(), i.ReadU8());
            break;
        }
    }
    return i.GetDistanceFrom(start);
}

} // namespace lrwpan
} // namespace ns3
